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use crate::errors::CpuInfoError;
use crate::minidump_format::*;
use std::io::{BufRead, BufReader};
use std::path;
type Result<T> = std::result::Result<T, CpuInfoError>;
struct CpuInfoEntry {
info_name: &'static str,
value: i32,
found: bool,
}
impl CpuInfoEntry {
fn new(info_name: &'static str, value: i32, found: bool) -> Self {
CpuInfoEntry {
info_name,
value,
found,
}
}
}
pub fn write_cpu_information(sys_info: &mut MDRawSystemInfo) -> Result<()> {
let vendor_id_name = "vendor_id";
let mut cpu_info_table = [
CpuInfoEntry::new("processor", -1, false),
#[cfg(any(target_arch = "x86_64", target_arch = "x86"))]
CpuInfoEntry::new("model", 0, false),
#[cfg(any(target_arch = "x86_64", target_arch = "x86"))]
CpuInfoEntry::new("stepping", 0, false),
#[cfg(any(target_arch = "x86_64", target_arch = "x86"))]
CpuInfoEntry::new("cpu family", 0, false),
];
// processor_architecture should always be set, do this first
sys_info.processor_architecture = if cfg!(target_arch = "mips") {
MDCPUArchitecture::PROCESSOR_ARCHITECTURE_MIPS
} else if cfg!(target_arch = "mips64") {
MDCPUArchitecture::PROCESSOR_ARCHITECTURE_MIPS64
} else if cfg!(target_arch = "x86") {
MDCPUArchitecture::PROCESSOR_ARCHITECTURE_INTEL
} else {
MDCPUArchitecture::PROCESSOR_ARCHITECTURE_AMD64
} as u16;
let cpuinfo_file = std::fs::File::open(path::PathBuf::from("/proc/cpuinfo"))?;
let mut vendor_id = String::new();
for line in BufReader::new(cpuinfo_file).lines() {
let line = line?;
// Expected format: <field-name> <space>+ ':' <space> <value>
// Note that:
// - empty lines happen.
// - <field-name> can contain spaces.
// - some fields have an empty <value>
if line.trim().is_empty() {
continue;
}
let mut liter = line.split(':').map(|x| x.trim());
let field = liter.next().unwrap(); // guaranteed to have at least one item
let value = if let Some(val) = liter.next() {
val
} else {
continue;
};
let mut is_first_entry = true;
for entry in cpu_info_table.iter_mut() {
if !is_first_entry && entry.found {
// except for the 'processor' field, ignore repeated values.
continue;
}
is_first_entry = false;
if field == entry.info_name {
if let Ok(v) = value.parse() {
entry.value = v;
entry.found = true;
} else {
continue;
}
}
// special case for vendor_id
if field == vendor_id_name && !value.is_empty() {
vendor_id = value.into();
}
}
}
// make sure we got everything we wanted
if !cpu_info_table.iter().all(|x| x.found) {
return Err(CpuInfoError::NotAllProcEntriesFound);
}
// cpu_info_table[0] holds the last cpu id listed in /proc/cpuinfo,
// assuming this is the highest id, change it to the number of CPUs
// by adding one.
cpu_info_table[0].value += 1;
sys_info.number_of_processors = cpu_info_table[0].value as u8; // TODO: might not work on special machines with LOTS of CPUs
#[cfg(any(target_arch = "x86_64", target_arch = "x86"))]
{
sys_info.processor_level = cpu_info_table[3].value as u16;
sys_info.processor_revision =
(cpu_info_table[1].value << 8 | cpu_info_table[2].value) as u16;
}
if !vendor_id.is_empty() {
let vendor_id = vendor_id.as_bytes();
// The vendor_id is the first 12 (3 * size_of::<u32>()) bytes
let vendor_len = std::cmp::min(3 * std::mem::size_of::<u32>(), vendor_id.len());
sys_info.cpu.data[..vendor_len].copy_from_slice(&vendor_id[..vendor_len]);
}
Ok(())
}